Sack-closing machine



l y MCCC@ .Sept 25 1923' H. o'B. HARDING ET An. 9' '9 SACK CLOSING MACHINE Filed May 11. 1922 6 Sheets-Sheet l A' @WMM/wmv Sept 25, i923. www@ H. QB. HARDING ET AL.

SACK CLOSING MACHINE i Filed May ll, 1922 6 Sheets-Sheet 2 /70 7 j Z Z0S2/0 Tf/f/H TTaR/vfrs Sept. 25 1923.

SACK CLOSING MACHINE Filed May JAI/w55 JESSE/v.

sept, 25,1923. Mam@ H. OB. HARDING ET AL SACK CLOS ING MACHINE Filed May 11. 1922 6 Sheetssheet 4 84 /76 N 0 85 sem. 25, 19%

H. OB. HARDING ET AL SACK CLOSING MACHINE Filed May 1l. 1922 6 Sheetsosheet 5 Hal! da /m//YTORS .LM/155 JESSE/y y sept. 25, w23.

SACK CLOSING MACHINE Filed May 11, 1922 6 Sheets-Sheet. 6

Patented Sept. Z5, 1923.

UNlTED STATES PATENT OFFICEm HENRY OB. HARDING AND JAMES JESSEN, OF MINNEAPOLIS, MINNESOTA; SAID JESSEN ASSIGNOR T0 SAID HARDING.

SACK-CLOSING MACHINE.

Application led May 11,

To all whom t may concem:

Be it known that we, HENRY OB. HARD- ING and J AMES J ESSEN, citizens of the United States, residing at Minneapolis, in the count of Hennepin and State of Minne- Sota, have invented certain new and useful Improvements in Sack-Closing Machines, of which the following is a specification.

Our invention relates to sack closing machines, and the general object is to provide mechanism for automatically preparlng and carrying or feeding filled paper or other sacks to a position in a tying machine where the prepared mouth of the sack is readily compacted, by other suitable mechanism into a uniform neck of small` compass for receiving loops of cord laid about the same by sultable tying mechanism, such as that dlsclosed in Patent No. 1,196,459, issued August 29th, 1916. We accomplish the objects of our invention by providing mechanism for moving the open-mouthed sack by suitable carrying means to a position for the elongation of the rounded mouth of the sack, preliminary to feeding the sack between crimping rolls to the place of compacting. and tying the neck of the sack. The sacks are placed either by suitable conveying means from a weighing machine or scale or by hand, upon a yieldingly supported plate upon which a filled sack is placed and which, when depressed by the weight of the sack, puts in motion aconveyor which carries the sack along and stops it underneath a topiattenin device consisting of two vertical lingers w ich are lowered into the mouth of the sack and then separated from each other to extend the sack mouth to the limit permitted b the materialso as to bring the top edges o the sack intotwo parallel lines l in close to each other and extending in t e giirection of travel of the sack. Before the fingers are withdrawn from the mouth of the sack, wing members are moved from each side upon the iiattened or elongated mouth of the sack and the conveyor is then automatically started carrying the elongated mouth of the sack awa from the wing members and between fixe guides to the crimp-Y ing rollers adjacent the tying mechanism. In order that the machine may be successfully used in connection with different sized sacks, means is provided for varying the extent to which the vertical fingers are separated from each other after lowered 1922. Serial No. 560,044.

into the sack mouth-,fand means is also provided for varying the position in which the sack conveyor is stopped vin order that the vertical fingers may be lowered directly into the center of the sack mouth before they are moved away from each other to extend and flatten the mouth of the sack.

The full objects and advantages of our invention will appear in connection with the detailed description, and the novel features embodied in our inventive idea will be particularly pointed out in the claims.

In the drawings which illustrate one embodiment of our invention, Fig. 1 is a sectional side elevational view of a machine showing sacks in the act of being prepared and tied. Fi 2 is a vertical section on the line 2-2 of lig. 1 showing the preparing mechanism and sack as it is prepared for the feeding operation. Fig. 3 is a horizontal section on the'line 3-3 of 2 with the frame of the machine broken away in parts. Fig; 4. is a detail view of a portion of Fig. 3 s owing the actuatin parts of the preparing mechanism in a itierent or advanced position. Fig. 5 is a view.l in section onthe line 5-5 of Fig. 4. Fig. 6 is a view in vertical section 'of a portion ofthe machine illus- .trating the mechanism for the periodical starting and stopping of the machine and showing the parts in position when at rest. Fig. 7 is a side view of Fi 6 looking in the directionl of the arrow. ig. 8 is a detail view taken on the line 8-8 of Fig. 7. Fig. 9 is a view in horizontal section on the lines 9-9 of Figs. 1 and 2. Fig. 10 isv a view in horizontal section on the l1ne 10-1() of Fig. 6. Fig. 11 is a detail view of parts shown in Fig. 6 and showing parts of the starting and stopping mechanism in diferent position. Fig. 12 1s a sectional plan view of the upper parts of the preparing mechanism, this section being taken on the line 12.-12 of Fig. 2. Fig. 13 is afview in vertical section on the line 13-13 of F ig. 12 illustrating by dotted lines the operation of the sack preparin mechanism. Figs. 14 and 15 are detail views of a clutch disengaging device.

As illustrated, the machine is supported upon standards 14 to which is slidably attached a support 16 vertically adjusted in suit-able manner as by the means shown in F ig. 3 consisting of a hand crank 18 secured to one en'd of a horizontal shaft to the other end of which is secured a bevel gear 20 platform.

meshing with a bevel gear 22 secured to a vertical shalt 241 so that upon turning the hand crank 18 the support 16 may be moved up or down to accommodate the machine to sacks of different height. -ltotatably mounted in the support 16 is a shaft 26 (Fig. 9) to which are secured two sprocket wheels 28. The support 16.has a rearward extension 30 carrying a stationary shaft 32 upon which two sprocket wheels 3a are rotatably mounted, the sprocket chains 36 being placed laround these two pairs of sprocket wheels.

lPivotally attached to the chains 36 are ha plurality of outstanding arms 38 arranged at regular intervals. The arms 38 at their inner ends are intermediately cut away so as to provide two lingers 10 and d2 which are adapted to extend through longitudinal slots in a platform 4rd as shown in Fig. 2. This platform is mounted on the support 16 and is positioned just above the upper stretch of the chains 36. As will be apparent from Figs. 1 and 2, the lingers A12 are extended to form crank members t6 beyond the pivotal attachment to the chains and the outer ends of the crankmembers are provided with rollers d3 which travel between an uppera track and a lower track 52. At the delivery end of the machine the tracks are downwardly and inwardly curved as shown in Fig. 1 so that the arms 33 are caused to .descend vertically as indicated in dotted lines instead ot being directed outwardly at this time. This prevents the tied sack from being forcibly thrown od the The middle portion ot the platform Ltd at its rear end does not extend as tar as the position ot the sprocket wheel 34 but adjacent this rear end is a plate 5t upon which the tilled sacks which are to be prepared tor tying are placed. The plate 5t is secured to the upper end of a slidable rod 56, the lower end et which is attached to a crank arm 58 which is joined by a conneciting rod 60 to a crank 61 splined on the lower portion ot a vertical rock shaft 62. Attached to a crank 63 on the upper end ot the rock shaft 62 is a connecting rod 61 which at its forward end is attached to the lower end ot a pivoted latch member 66 which is normally heldby a spring 66 in the position shown in Figs. 6 and 11.

A spring 69 tends to turn the roch shaft 62 in such manner that the plate 5t will normally be held u wardly in the lull line position shown in ig. 1.; When a hlled sack is placed on the yplate 511, its weight depresses l this plate and therocl; shaft 62 is caused to turn and through the connecting rod 641 push the latch member 66 into the dotted 'line position shown in Fig. 6. The latch shoulder on this latch member thereby releases a lever 7 0 which is pivoted at 72 and a spring it then caums the upper end ot the lever 70 to move toward the lett as neeaoea viewed in Fig. 6., This lever end is forked so as to extend into a circular recess in a clutch member 76A splined on a shaft to which is secured a bevel gear 78 meshing with a bevel gear 80 secured to a driving shaft 82 provided with a driving pulley 83. A cooperating clutch member 841 is secured to a sleeve 86. Secured to the sleeve 86 is a bevel gear 90 which meshes with a bevel gear 92 secured to the upper end of a shaft 911. To this shalt is splined a spiral gear 96 which meshes with a spiral gear 98 secured to a shaft 100 to the outer end of which is secured a mutilated spur gear 102 as best shown in Figs. 2 and 6. This gear is adapt ed to mesh with a spur gear 10d having a concave 'portion adapted to lock with the convex blank portion of the gear 102. The gear 10d has an extended hub 106 loosely mounted on the shaft 26. This hub is provided with a plurality ol holes 105.any one ot which may be engaged by a spring pressed bolt carried by a danged sleeve 112 secured to the shaft 26 as shown in Fig. 9. By placing the bolt 110 in different holes, the position at which the arms 38 will stop may be varied. This adjustment, as will appear later, is necessary in order to accommodate the machine to diderent sized sacks.

Secured to a shaft 113 is a cam member 115.

lli

having a raised cam portion 11d, the extent of which is such that it comes into engagement with a roller 116 mounted on the lever 70 at the time when a sach is in proper preparing position and another sackis in proper tying position. The cam 114C depresses the lever 70, thereby unclutching the clutch members 76 and 8d and,as will be apparent trom Fig. 11, the depressed end ot this lever will be engaged by the Shoulder on the latch member 66 so that the lever will be held in depressed condition until the latch is retracted by the placing ot a sack on the receiving plate 5t. When the sach has been conveyed into the properpreparing position the mouth thereof is extended by the following mechanism. A pair ot depending lingers 118 and 120 are formed on the free ends oi arms 122 and 124% the other ends of which are attached to rocker members 126 and 128 which are connected by a linlr 130 slidable on a vertical rod 132 which is connected to an upper cranlr 134i and a lower crank 136 carried by a rock shaft 138 which is rocked in a manner which will be described later. and 123 are pivote/d tol opposite ends et a bar 1110 which is slidable upon a rod 1412 and upon the rock shaft 138. The bar 140 is caused to move up and down by a cam 1M secured to a shaft 146. This cam engages a roller 1418 mounted on a lever pivoted at 152 and having its tree end connested by a link 15tto the bar 1410. 1t will be understood that the rock shatt 138 is teo . connected to an arm 198 by a spring agees rocked after the depending fingers have been lowered into the mouth of thel sackV so that this rocking movement willbring the fin ers from fullline position into the dotted ine position shown'in Fig. 12. Also secured to the shaft 146 is a cam 156 engaging a roller 158 mountedv on a lever 160 pivotally attached at 162. The lever 160 when 'not operated by the cam 156 is pulled toward the right as viewed in Fig. 2 by a spring 163. The upper end of the lever 160 is connected by a link 164 to a rocker arm 166 which at its lower ,end carries a wing 168. The arm 166 is pivoted at 170 to a frame member 172 and adjacent its pivot has a segmental gear 174 in mesh with a segmental gear 176 on an arm 17 8'pivoted at 180. The lower vend of the arm 178 carries a wing member 182 which is. thus adapted to cooperate with the wing'member 168 so that these wing mem- -bers are operated in unison from opposite sides against the mouth ofi-the sack. -F or driving the shaft 146 a spiral gear 184 is secured thereto, and this gear meshes 'with a spiralgear 186 splined on the shaft 94. The

rock shaft 138 is' rocked from the shaft 146 by a cam 188 which has a cam groove in Ywhich travels a roller 190 attached at the junction o f toggle links 192 and 194. The outer end of the toggle link 192 is pivoted at 196 to the frame and the outer end' of the toggle link 194 is adapted to be adustably olt200 which may be engaged in' any one of a number of holes 202 formed in the arm. These holes as shown in Figs. 3 and 4 correspond to differentv sized sacks weighing, for instance when filled, two pounds, five pounds,- ten pounds, and twenty-four pounds. The extent to which the fingersv 118 and 120 will be separated from each other. is determined by the particular hole which is engaged by the bolt 200. The arm 198 is enlarged yto encircle the rock shaft 138 butinstead of being secured thereto is spaced from a lug 204 secured to thev rock shaft and a spring 206 is interposed between the arm 198 and the lug 204. This allows a yielding movement of the spring fingers when separated in case some of the sacks should run smaller than the normal size.

Loosely mounted on the driving shaft 82 is a gear 208 to which is attached a clutch member 210. The gear 208 meshes with aA i gear 212 secured to the shaft113 which car- 214 unclutched. The latch arm 224 is northe proper time will be described later.

Ahead of the position occupied by the wing members 1'68 and 182 when depressed are two fixed guides 232 and 234 for guiding the flattened mouth of the sack when the latter is moved forward while adjacent the forward ends of these guides are two cooperating crimping rollers 236 and 238 which rotate all the time when the driving shaft is running, since they are driven from the driving shaft by a bevel gear 240 secured thereto and meshing with a bevel gear 242 attached to the upper end of the crimping roller 238. Secured to the gear 242 is a spur -gear 244' meshing with a spur gear v246 attached to the up er end of the crimping roller 236. fter the sack mouth has moved past the crimping rollers, it is necessary that it be compacted at' the tying point. This is accomplished by a pusher bar 248 having an engaging head 250. This bar carries a roller 252 operating in a vcam slot 254 so that the head 250 will be brought up behind the. crimped sack mouth when the pusher har is moved ahead and when retracted will lie at the, side of the path of movement of the sack mouth. For operating the pusher bar, it is attached to an operating crank `arm 256 pivoted at258, the free end of which engages the cam member 115 by means of a roller 260. A fixed abutment 262 is in engagement with the forward end of the sack mouth when the rear end thereof is engaged and compacted by thev movable head 250. After the sackv mouth has been compacted in this manner. it

is tied by a cord C which may be laidl sacks may be made. In order to prevent the momentum of the sack. taking it ahead when the conve or is stopped in preparing position with tlie sack underneath the de-v pending fingers 118 and 120, flexible 'strips 274 and 276 are provided which check the movement of the sack as soon as the conveyor is stopped. For disengaging the clutch members 210 and 214 at the proper time, a lug 278 is secured to the lface of the gear 212. "This lug, during the rotation of the gear 212, engages a projection 280 carried by a slide 282 having an inclined end portion 284` for engaging the arm 222 and pushing it into position to be held by the latch member 224. The clutch members are thus held disengaged in opposition to the tension of the spring 218 until the latch 224 releases the arm 222 in the manner previously described. A spring 286 serves to return the slide 282 to its original position.

The operation and advantages of our invention will vbe readily understood in con nection with the' foregoing description. When a filled sack is placed upon the plate 54 this plate is depressed by the weight ot the sack. 'lhe connections between this plate and the latch 66 cause the latter to be be released from the end of the lever 70 so that the spring 74 will cause the clutch member 76to be slid into engagement with the clutch member 84, thereby causing rotation of the shaft 94 which through the gearsv 96 and 98 causes rotation of the shaft 100. 'l` he mutilated gear 102 on the latter shat't causes the smaller gear 104 to make one rotation and then stop while the gear 102 still continues to rotate. Since the gear 104 is on shaft 26 to which the sprocket wheels are secured, the conveyor is driven during the time the gear 104 is rotating and is then stopped. rllhe rotation of the shaft 94 also lcauses rotation of the shaft 146, by means ofthe gears 184 and 186 and rotation ot the shaft 146 causes rotation of the cams 144 and 156, these cams being so constructed that the depending fingers 118 and 120 and the wings 168 and 182 are caused to act upon the mouth 'of a sackwhile the latter is at rest in a predetermined position, it being understood that the wings are caused to engage opposite sides of the flattened and elongated sack mouth before the lingers have been entirely withdrawn. When the gear 104 is rotating,the projection 230 carried by the member 106 associated with this gear strikes the arm 228, thereby moving the latch 224 into unlatching position and allowing the clutch member 214 to engage the clutch member 210. This causes the gear 208 to rotate the gear 212 and the cam member 115.

thereby not only starting the operation ot' the tymg operation in the manner disclosed in Patent No. 1,196,459 dated Aug. 29, 1916, but causes the cam flange 114 on this cam member to engage the roller 116 on the lever 70 and depresses the latter, thereby removing the clutch member 76 from engagement with the clutch member 84 at the same time the latch 66 engages the end of the lever 70 and holds this lever depressed until the latter is released by placing another sack upon the -plate 54. lt should be observed that in incense case a sack is placed upon the plate 54 before the cycle of operations being performed upon the preceding sack is completed,the cam liange 114 will still be in engagement with the roller 116 and prevent movement of the clutch member 76 into clutching position When the cam member has been rotated into its original position and the tying operation is completed, the lug 278 on the gear 212 causes the clutch 1nember'214 to be disengaged from the clutch member 210, thereby stopping rotation of the cam member with the arm 222 engaged by the latch member 224 ready for release in the mannerl previously described. When lthe spring bolt 110 is retracted and the lange member 112 turned ahead to accommodate the movement of the conveyor to smaller sized sacks, the projection 230 is at the same time advanced, and since the action of this projection upon the arm 228 starts the rot-ation of the cam member 115, the tying of smaller sized sacks is thereby speeded up. lt is to be noted that these two adjustments are effected by turn ing the single member 112. Adjustment of the amount of separation of the fingers 118 and 120 for different sized sacks is made by changing the position of the spring bolt 200. By referring to Fig. 1, it will be seen that, a sack after being placed upon the plate 54 is first moved to intermediate position and stopped while the sack mouth is being fiattened and elongated, and that this sack is then moved into position under the tying mechanism and stopped for the Vtving operation. After this operation is completed, the sack is carried off the delivery end of the platform 44 by the movement of one ot the arms 38, these arms at this position being caused to descend verticallyin order that the sack maynot be forcibly thrown od the platform.

llt will with the moving of a sack from the preliminary preparing position to the tying position, another sack that has been placed upon the plate 54 will be carried to the preparing position, and that while one sack is being tied. the mouth of another sack is being elongated preparatory to being fed between the crimping rollers on its way to the tying position. llmmediately the rearward edge of the fiat-tened mouth has passed the crimping rollers 236 and 238 the compacting bar 248 is moved in position by the cam 115, which has meanwhile been put in operation to compress the crimped mouth of the sack into a compacted neck for the reception of the tying cord. llt will also be understood that the vrearward edge of a narrow sack will pass the crimping rollers in less time than a wider sack will pass that point from the preliminary preparing position and that therefore by advancing the starting point of the compaeting and tying cam 115 accordingly for also be noted that simultaneously narrower sacks, the tying speed per minute of sacks will be correspondingly increased. It has also been found that for very small sacks at high tying speed of sacks per min ute, difiiculty is met in keeping the sacks in a proper upright position and stopping them at a spot exactly central tothe elongating fingers 118 and 120. The high Vertical, rigidly outstanding carrying arms 38 keep these small sacks in a vertical position on the conveyor platform 44 aided bythe guide rails 264 and 266, and the flexible strips 274and 276 prevent overthrow of the sacks at high speeds. It is evident that various details of construction may be Imodified without departing from the scope of the invention, and we do not, therefore, limit the claims strictly to the construction shown and described.

We claim;

1. A machine for operating upon sacks comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in predetermined position, and means for. pulling the mouth of the sack from opposite sides when the latter is in said position to cause said sack mouth to be fiattened and elongated in the direction of travel of the sack.

2. A machine for operating upon sacks comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in a predetermined position, a'

pair of cooperating fingers, means for lowering said fingers into the mouth of the sack when the latter is in said position, and moans for separating said fingers when in lowered position.

3. A machine for operating upon sacks comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in predetermined position, a pair of cooperating fingers, means for lowering said fingers into the mouth of the sack when the latter is `in said position, means for adjusting the operation of said conveyor for different sized sacks to cause it to stop with the center of the sack directly underneath said fingers, and means for separating said yfingers when in lowered position.v

4. A machine for operating upon sacks comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in predetermined position, a pair of cooperating fingers, means for lowering said fingers into the mouth of the sack when the latter is in said position, means for adjusting the operation of said conveyor for different sized sacks to cause it to stop with the sack directly underneath said fingers, means for separating said fingers when in lowered position, and means for -adjusting the amount of separation of said fingers according to the size of the sack.

5. A machine for operating upon sacks comprising a conveyor, a yieldingly supported member at the receiving end of said conveyor, connections with said member for starting said conveyor by the weight of a sackplaced on said member, means for automatically stopping said conveyor when the sack thereon is in a predetermined position, a pair of coo erating fingers, means for lowering said gers 1nto the mouth of the sack when the latter is in said position, and means for separating said fingers when in lowered position.

6. A machine for operating upon sacks comprising a pair of cooperating fingers, means for lowering said fingersinto the mouth-of a sack placed underneath, means for separating said fingers when in lowered position to cause said sack mouth to be flattened and elongated, a pair of wing members, means for bringing said wing members from opposite sides into engagement with said elongated sack mouth, and means for then removing said fingers from said sack mouth.

7. A machine for operating 4upon sacks comprising a conveyor, meansfor automatically stopping said conveyor when a sack thereon isvin a predetermined position, a

. pair of cooperating fingers, means for lowering said fingers into the mouth of the Vsack when the latter is in said position, means for separating said fingers when in lowered position to cause said sack mouth to be fiattened and elongated in the direction of travel of the sack, a pair of wing members, means for bringing said wing members from opposite sides into engagement with said elongated sack mouth, means for then removing said fingers from said sack mouth, and a pair of fixed guides between which said elongated sack mouth passes when said conveyor is again started.

8. A machine yfor operating upon. sacks comprising a conveyor, a yieldingly supported member at the receiving end of said conveyor, connections with said member for starting said conveyor by the weight of a sack placed on said member, means for automatically' stopping said conveyor when the sack thereon is in a predetermined position, a pair of cooperating fingers. means for lowering said fingers into the mouth of the sack when the latter is in said position, means for separating said fingers when in lowered position to cause said sack month to be fiattened and elongated in the direcvtion of travel of the sack, a pair of wing members, means for bringing said wing members from opposite sides into enga?, ment with said elongated sack mouth, means for then removing said fingers from said sack mouth, a pair of fixed guides between which said elongated sack mouth passes when said conveyor is aga-in started, a pair of crimping rollers beyond said fixed guides and between which said elongated sack mouth passes, a compacting mechanism beyond said crimping rollers for acting upon the crimped sack mouth, and a tying mechanism for tying the compacted sack mouth.

9. A machine for operating upon sacks comprising an endless conveyor having a plurality 'of arms attached thereto at regular intervals, means for holding said arms upright on the upper stretch of said conveyor, tying mechanism above the delivery end of said conveyor, and means for causing said arms to descend in vertical position while passing from the upper to the lower stretch at said delivery point.

l0. A mechanism for operating upon sacks comprising a conveyor, means for auto matically stopping said conveyor when a sack thereon is in a predetermined position, a pair of cooperating fingers, means for lowermg said lingers into when the latter is in said position, means or adjusting the operation of said conveyor for diderent sized sacks to cause it to stop with the sack directly underneath said tiners, means for separating said ngers when 1n lowered positlon, means for adjusting the amount of separation of said lingers according to the size of the sack, and tying mechanism above the delivery end of said conveyor and underneath which a sack preceding said aforementioned sack is stopped, and means for varying the time of operation of said tying mechanism according to the size of the sack.

1l. A machine for operating upon sacks comprising a conveyor, means for autoi matically stopping said conveyor when a sack thereon is in predetermined position,

m'seans for pullin the mouth oit the sack from opposite si es when the latter is in said position to cause said sack mouth to be flattened and elongated in the 'direction of travel of the sack, and means for adjusting the operation of said conveyor for different sized sacks to cause it to stop with the center of the sach directly underneath said pulling means.

12. A machine for operating upon sacks comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in predetermined position, means for pulling the mouth of the sack from opposite sides when the latter is in said position to cause said saclr mouth to be dattened and elongated in the direction ot l the mouth ofthe sack neeenea travel of they saclr, a pair ot wing members, and means for bringing said wing members from opposite sides into engagement with said elongated saclr mouth.

' 13.A machine for operating upon melts comprising a conveyor, means for automatically stopping said conveyor when a sack thereon is in predetermined position, means Jfor pulling the mouth oil the sack from opposite vsides whenl the latter is in said position to cause said sack Amouth to be iiattened and elongated in the direction oi travel of the sack, a pair of wing members, means for bringing said wing members from opposite sides into engagement with said elon ated saclr mouth, and a pair ci ixed gui es between which said elongated sack mouth passes when said conveyor is again started.

14. A machine for operating upon sacks comprising a conveyor, a yie din ly supported member at the receiving en of said conveyor, connections with said member for starting said conveyor by the weight of a sack laced on said member, means for automatically stopping said conveyor when the sack thereon is in predetermined position, and means for pulling the mouth of the sack from opposite sides when the latter is in said position to cause said sack mouth to be Hattened and elongated in the direction of travel of the sack.

`15. A machine for operating u on sache comprising a conveyor, means or automatically stopping said conveyor when a sack thereon is in predetermined position, means tor pulling the mouth of the sach from opposite sides when the latter is in said position to cause said sack mouth to be dattened and elongated in the direction of travel of the sack, means for adiustin the operation of said conveyor for di erent sized sacks to cause it to stop with the center of vthe saclr directly underneath said pulling m'eans, sachsecuring mechanism above the delivery end of said conveyor and underneath which a sack preceding said aforementioned saclr is stopped, and means for varying the time of operation of said securing 'mechanism according to the size of the Sack.

lln testimony whereof we hereunto amr: our signatures.

HENRY @"B. HARDING. JAMES JESSEN. 

